plated construction

简明释义

板结构

英英释义

例句

1.Using plated construction in the design of the aircraft fuselage has significantly improved safety.

在飞机机身设计中使用板式结构显著提高了安全性。

2.In modern bridges, plated construction is often employed for its strength and durability.

在现代桥梁中，通常采用板式结构以增强其强度和耐用性。

3.The architect proposed a new design using plated construction to enhance the building's structural integrity.

建筑师提出了一种使用板式结构的新设计，以增强建筑的结构完整性。

4.The contractor specializes in plated construction for industrial facilities.

承包商专门从事工业设施的板式结构建设。

5.The team decided on plated construction for the new warehouse to reduce costs and improve efficiency.

团队决定为新仓库采用板式结构以降低成本并提高效率。

作文

In modern engineering and architecture, various construction techniques are employed to create durable and aesthetically pleasing structures. One such technique that has gained popularity is plated construction, which refers to the use of flat plates or panels in the design and assembly of buildings and other structures. This method offers numerous advantages, including increased strength, reduced weight, and enhanced design flexibility. Understanding plated construction can provide valuable insights into its applications and benefits in contemporary construction projects.The fundamental principle behind plated construction lies in the distribution of loads across flat surfaces. By utilizing plates made from materials such as steel, aluminum, or reinforced concrete, engineers can create strong yet lightweight structures that can withstand significant forces. The plates are often connected using welding, bolting, or riveting, which ensures a robust connection that can handle stress and strain effectively.One of the most significant advantages of plated construction is its ability to reduce the overall weight of a structure. Traditional construction methods often rely on solid beams and columns, which can be heavy and cumbersome. In contrast, the use of plates allows for a more efficient use of materials, resulting in lighter structures that are easier to transport and assemble. This reduction in weight can lead to lower foundation costs and improved seismic performance, making plated construction an attractive option for many engineers.Additionally, plated construction provides architects and designers with greater flexibility in their designs. The flat plates can be easily shaped and customized to fit various architectural styles and requirements. This versatility allows for innovative designs that push the boundaries of traditional construction methods. For instance, curved or angular shapes can be achieved through the careful manipulation of plates, enabling the creation of unique and visually striking buildings.Moreover, plated construction is often associated with faster construction times. Since the plates can be prefabricated off-site, they can be quickly assembled on-site, significantly reducing the time required for construction. This efficiency not only helps to meet tight project deadlines but also minimizes disruptions to the surrounding environment during the building process.Another important aspect of plated construction is its sustainability. With the increasing emphasis on eco-friendly building practices, the use of plates made from recyclable materials can contribute to a greener construction industry. Additionally, the lightweight nature of plated structures often results in lower energy consumption during transportation and installation, further reducing their environmental impact.In conclusion, plated construction represents a modern approach to building that combines strength, efficiency, and design flexibility. Its ability to reduce weight, expedite construction timelines, and promote sustainable practices makes it an appealing choice for architects and engineers alike. As the construction industry continues to evolve, understanding and implementing techniques like plated construction will be crucial in meeting the demands of future projects while adhering to environmental standards. The integration of such innovative methods will undoubtedly shape the skyline of our cities and contribute to a more sustainable built environment.

在现代工程和建筑中，各种施工技术被用于创造耐用且美观的结构。其中一种越来越受欢迎的技术是板式结构，指的是在建筑和其他结构的设计和组装中使用平面板或面板。这种方法具有许多优点，包括增强强度、减轻重量和提高设计灵活性。理解板式结构可以为我们提供关于其在当代建筑项目中的应用和好处的宝贵见解。板式结构的基本原理在于将负载分布在平面表面上。通过利用由钢、铝或钢筋混凝土等材料制成的板，工程师可以创建强大而轻便的结构，这些结构能够承受显著的力量。这些板通常通过焊接、螺栓连接或铆接进行连接，以确保稳固的连接，可以有效地承受应力和拉伸。板式结构的一个重要优势是它能够减少结构的整体重量。传统的施工方法通常依赖于实心梁和柱，这可能会很重且笨重。相比之下，使用板材允许更高效地使用材料，从而导致更轻的结构，更容易运输和组装。这种重量的减少可以降低基础成本，并改善抗震性能，使得板式结构成为许多工程师的吸引选择。此外，板式结构为建筑师和设计师提供了更大的设计灵活性。这些平面板可以很容易地被塑形和定制，以适应各种建筑风格和要求。这种多样性使得创新设计成为可能，突破了传统建筑方法的界限。例如，通过对板的精心操作，可以实现曲线或角度形状，从而创造出独特且视觉上引人注目的建筑。此外，板式结构通常与更快的施工时间相关联。由于这些板可以在现场外预制，因此可以在现场快速组装，显著减少所需的施工时间。这种效率不仅有助于满足紧迫的项目截止日期，还最小化了在建筑过程中对周围环境的干扰。板式结构的另一个重要方面是其可持续性。随着对环保建筑实践的日益重视，使用可回收材料制成的板可以为更绿色的建筑行业做出贡献。此外，板式结构的轻便特性通常导致运输和安装过程中的能耗降低，进一步减少了其对环境的影响。总之，板式结构代表了一种现代建筑方法，结合了强度、效率和设计灵活性。其减少重量、加快施工时间以及促进可持续实践的能力，使其成为建筑师和工程师的吸引选择。随着建筑行业的不断发展，理解和实施诸如板式结构这样的技术将对满足未来项目的需求，同时遵循环境标准至关重要。这种创新方法的整合无疑将塑造我们城市的天际线，并为更可持续的建筑环境做出贡献。